Blender container and cover

ABSTRACT

A container ( 11 ) for a blender includes a base surface ( 13 ) and a blade ( 20 ) which is rotatable on an axis above the base surface ( 13 ). An arcuate wall ( 14 ) and two generally straight walls ( 15, 16 ) extend upwardly from the base surface ( 13 ) and terminate at the upper end of container ( 11 ). The axis of rotation of the blade ( 20 ) is closer to the arcuate wall ( 14 ) than it is to the generally straight walls ( 15, 16 ). A skirt ( 25 ) extends downwardly from the base surface ( 13 ) and has an opening. Sound baffling fingers ( 32 ) extend from the skirt ( 25 ) and into the opening. A spout ( 40 ) is formed at the intersection of two of the walls ( 14, 15, 16 ), the spout ( 40 ) having an entry point located approximately twenty to thirty percent of the height of the walls ( 14, 15, 16 ) from the upper end of the container ( 11 ). A handle ( 34 ) is positioned opposite to the spout ( 40 ) and a cover ( 12 ) includes a plug ( 55 ) to close the spout ( 40 ).

TECHNICAL FIELD

This invention relates to a container and cover for use with a blender.More particularly, this invention relates to a container which is shapedto efficiently blend materials therein and which can easily dischargethose materials through a pouring spout that is closed by the coverduring blending operations.

BACKGROUND ART

Traditional containers for a blender have most often been generallyround or square in configuration with at least some of these containersbeing provided with a pouring spout. That spout is usually positionednear the top of one of the sidewalls or a corner of the container at therim thereof. As such, when the blended material is to be poured throughthe spout, it tends to congregate around the spout, and while some ofthat material will properly pass through the spout, some of it can alsobe misdirected past the sides of the spout. At times, such can result inan unsatisfactory transfer of the material.

When the spout is not in use, such as when the material is beingblended, the spout should preferably be closed. Attempts have been madeto utilize the cover of the container to also close the spout, but suchattempts have not always proved successful.

Many blenders create a certain amount of noise which in someenvironments can be distracting. Usually the motor housing is equippedwith some type of sound reducing or muffling device or the entireblender can be positioned in a housing to deaden the noise of the motor.However, it is believed to be heretofore unknown to provide a sounddeadening feature on the blender container itself to reduce the soundemanating from the blade as it is mixing the materials.

It has also been found that the square or round configurations of thecontainer do not provide the most efficient blending as the blenderblade rotates near the bottom of the container. The first known attemptsat improving the efficiency of the blender by changing the shape of thecontainer are depicted in U.S. Pat. No. 7,063,456. The present inventionseeks to improve or expand upon the configurations shown in that patent.

DISCLOSURE OF THE INVENTION

It is thus an object of one aspect of the present invention to provide acontainer for a blender which is shaped to provide efficient blendingperformance.

It is an object of another aspect of the present invention to provide acontainer, as above, in which the container itself is configured toassist in reducing the noise emanating from the blender.

It is an object of an additional aspect of the present invention toprovide a container, as above, with a pouring spout that is located formore efficient pouring.

It is an object of yet another aspect of the present invention toprovide a container, as above, with a cover that attaches to thecontainer and completely closes the pouring spout.

These and other objects of the present invention, as well as theadvantages thereof over existing prior art forms, which will becomeapparent from the description to follow, are accomplished by theimprovements hereinafter described and claimed.

In general, a container for a blender made in accordance with one aspectof the present invention includes a base surface and a blade positionedabove the base surface and rotatable on an axis. An arcuate wall andfirst and second generally straight walls extend upwardly from the basesurface. The generally straight walls intersect each other and each ofthe generally straight walls intersect the arcuate wall. The arcuatewalls and the generally straight walls are positioned such that the axisof rotation of the blade is closer to the arcuate wall than to thegenerally straight walls.

In accordance with another aspect of the invention, a container for ablender includes a base surface and walls extending upwardly from thebase surface. A skirt extends downwardly from the base surface and hasan opening therein. Fingers extend from the skirt into the opening andare spaced from each other to baffle the noise of the blender.

A container made in accordance with yet another aspect of the inventionincludes a base surface and walls extending upwardly from the basesurface and terminating as the upper end of the container. A spout isformed between two of the walls and has an entry point locatedapproximately twenty to thirty percent of the height of the walls fromthe upper end of the container.

A container having these aspects of the invention includes a basesurface and a blade positioned above the base surface and rotatable onan axis. An arcuate wall and first and second generally straight wallsextend upwardly from the base surface. The generally straight wallsintersect each other and each of the generally straight walls intersectthe arcuate wall. The walls terminate as the upper end of the containerand are positioned such that the axis of rotation of the blade is closerto the arcuate wall than to the generally straight walls. A skirtextends downwardly from the base surface and has an opening therein.Fingers extend from the skirt into the opening and are spaced from eachother to baffle the noise of the blender. A spout is formed between twoof the walls and has an entry point located approximately twenty tothirty percent of the height of the walls from the upper end of thecontainer.

A preferred exemplary blender container and cover according to theconcepts of the present invention is shown by way of example in theaccompanying drawings without attempting to show all the various formsand modifications in which the invention might be embodied, theinvention being measured by the appended claims and not by the detailsof the specification.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view of a blender container and cover made inaccordance with the present invention.

FIG. 2 is a front elevational view thereof showing the spout.

FIG. 3 is a rear elevational view thereof showing the handle and aliquid drainage area.

FIG. 4 is a top plan view thereof.

FIG. 5 is a bottom plan view thereof.

FIG. 6 is a sectional view taken substantially along line 6-6 of FIG. 4.

FIG. 6A is a view like FIG. 6 but showing an alternative configurationfor the bottom surface of the container.

FIG. 7 is a sectional view taken substantially along line 7-7 of FIG. 4.

FIG. 8 is a top plan view of the blender container of the presentinvention with the cover removed.

PREFERRED EMBODIMENT FOR CARRYING OUT THE INVENTION

A blender container and cover assembly is indicated generally by thenumeral 10 and includes a pitcher or container generally indicated bythe numeral 11 and a lid or cover generally indicated by the numeral 12.Container 11 may be made of any suitable rigid plastic material, such asa copolyester material, and cover 12 may be made of any suitableflexible material such as synthetic rubber.

Container 11 includes a bottom or base surface 13 having three sidewalls14, 15, and 16 extending upwardly from the periphery thereof. Sidewall14 is arcuate in nature being formed as one continuous curve or arc,while sidewalls 15 and 16 are generally straight. Sidewall 14 intersectssidewall 15 at a radiused corner 17 and intersects sidewall 16 at aradiused corner 18. Straight sidewalls 15 and 16 intersect each other ata radiused corner 19. As shown in FIG. 6, container base surface 13 ispreferably generally flat. However, as shown in FIG. 6A, base surface 13can be sloped downwardly from sidewall 14 toward sidewalls 15 and 16 andcorner 19 which in some situations could improve the blendingefficiency.

As shown in FIG. 8, a blender blade 20 is conventionally locatedslightly above base surface 13 and rotates on an axis defined by a shaft21 driven by a motor (not shown) in a housing (not shown) upon whichcontainer 11 is positioned during the blending process. A shaft coupler(not shown) extends downwardly from blade 20 through an opening 22 inbase 13 such that when container 11 is positioned on the motor housing,shaft 21 is coupled to the motor shaft to turn therewith. When blade 20rotates, because its axis of rotation is closer to wall 14 than it is towalls 15 and 16, its outer tips 23 advantageously come closer to wall 14than they do to walls 15 and 16. The effect of such is to increase themixing ability of blade 20 because wall 14 cuts off the flow of materialand a pumping action is created between the area between wall 14 andblade 20 and the area between blade 20 and walls 15 and 16. Moreover, ifthe base surface 13 is sloped, blade 20 and its tips are closer to base13 at the area of wall 14 than they are at the area of walls 15 and 16.As shown in FIG. 5, the bottom of base 13 is provided with a wagon wheelspoke-like pattern of ribs 24 to provide strength to the unit andotherwise support the components which connect shaft 21 to the motorshaft.

Container 11 rests on a skirt, generally indicated by the numeral 25,which extends downwardly from base surface 13. Skirt 25 is generallyscalloped having four recess areas 26 spaced between and extendingoutwardly to three lobes 27 and a partial lobe 28. Partial lobe 28 isprovided in view of the curved nature of sidewall 14 such that the lobe28 is cut off at end points 29 to form an opening therebetween. A tab 30extends downwardly to some extent into the opening between the endpoints 29 of lobe 28. In a conventional manner, there are four alignmentpads (not shown) positioned at the top of the motor housing, and lobes27 fit over three of them while tab 30 rests on top of the fourth pad.

As best shown in FIG. 3, tab 30 has a slot 31 formed therein whichprovides a drainage passage for water which may accumulate within skirt25 when container 10 is being held upside down and being cleaned. Also,as best shown in FIG. 5, a baffle wall is formed by fingers 32 whichextend from the skirt walls into the opening of partial lobe 28 towardeach other with a space 33 formed therebetween. The tab 30 extends atleast partially over the space 33. Sound emanating from the action ofthe rotating blade 20 is thus caused to take a sinuous path aroundbaffle fingers 32, through space 33 and around the tab 30 which tends toreduce the sound more than if it were otherwise allowed to pass directlythrough partial lobe 28.

A handle, generally indicated by the numeral 34, is provided on one ofthe sidewalls. As shown, handle 34 is preferably positioned at themidpoint of sidewall 14 and directly opposite to corner 19. Handle 34includes a ledge 35 extending outwardly from sidewall 14, and opposedsides 36 extend upwardly from each end of ledge 35 and extend outwardlyfrom sidewall 14. Sides 36 and ledge 35 turn downwardly to form a handlegrip portion or stem 37. Handle stem 37 is preferably hollow so thatcontainer 10 can readily be nested within a like container forconvenience of shipping and storing. When so nested, the handle stem 37of one container will be received in the hollow stem of the othercontainer. A rib 38 (FIGS. 1 and 2) positioned on corner 19 prevents onecontainer 10 from nesting too deeply within, or otherwise being wedgedwithin, a like container.

Container 10 includes a pouring spout generally indicated by the numeral40. Spout 40 is preferably formed directly opposite to handle 34 andthus is shown as being formed in corner 19. Spout 40 includes opposedwalls 41 which extend outwardly from each side of a spout opening incorner 19. A spout bottom wall 42 extends between walls 41 and curvesdownwardly into corner 19. Wall 42 thus starts at point 43 along corner19 which is spaced from the top of container 10 by preferably twenty tothirty percent of the height of the sidewalls 14, 15, and 16 container10. As a result, material intended to be poured through spout 40 willreach it far before reaching the top of container 10 having to travelonly seventy to eighty percent of the height of container 10 to do so.Thus, essentially all of the material intended to be received and passthrough spout 40 will do so rather than pass around the sides of thespout as in the prior art.

Container cover 12 includes a domed surface 45 peripherally configuredlike container 11. That is, surface 45 includes an arcuate wall 46 andtwo generally straight walls 47, 48. A top wall 49 is formed at the topof walls 46, 47, and 48, and a rim 50 is formed at the bottom of walls46, 47 and 48. A central opening 51 is provided in top wall 49 to permitaccess to the inside of container 11 while cover 12 is positionedthereon, should access be necessary for stirring of the materials or thelike. However, opening 51 is normally closed by a plug (not shown) whichcan be held in opening 51 by any suitable means, a bayonet lock system52 being shown in the drawings for that purpose.

A peripheral flange 53 (FIGS. 6 and 7) extends downwardly from domedsurface 45, and when cover 12 is positioned on container 11, flange 53engages the inside of container walls 14, 15, and 16. At this time, therim 50 of cover 12 rests on a peripheral lip 54 formed at the top ofwalls 14, 15, and 16. Also, when cover 12 is so positioned on container11, container spout 40 is closed by a plug assembly generally indicatedby the numeral 55. Plug assembly 55 includes opposed sidewalls 56 whichengage spout walls 41 and a front wall 57 that extends between sidewalls56 and engages spout bottom wall 42 when cover 12 is on container 11. Aplug top wall 58 extends from wall 57 and between sidewalls 56 to domedsurface 45. As a result, spout 40 can be totally closed by wall 57 ofplug assembly 55. In addition, a flap seal wall 59 extends downwardlyfrom near the junction of plug top wall 58 and cover domed surface 45 toa point below the point 43 of entrance to spout 40. Wall 59 thus engagesthe radiused cover 19 of container 11 to further seal the spout 40.

Cover 12 is held on container 11 by lock flaps generally indicated bythe numeral 60. Two identical lock flaps 60 are shown, one extendingfrom rim 50 at an area along wall 46 and the other extending from rim 50at an area along wall 48. Each lock flap 60 includes a top surface 61extending outwardly from rim 50 and a tab or handle 62 extendingdownwardly from top surface 61. The inside of handle 62 is provided witha notch 63 therein, and when cover 12 is on container 11, container lip54 is received in notch 63. Cover 12 is thus held on container 11, butcan be easily removed by merely lifting and flexing the handle 62 of oneof the flaps 60 to move lip 54 out of notch 63.

In view of the foregoing, it should be evident that a container andcover constructed as described herein accomplishes the objects of theinvention and otherwise substantially improves the art.

What is claimed is:
 1. A container for a blender comprising a basesurface, a blade rotatable on an axis and positioned above said basesurface, an arcuate wall extending upwardly from said base surface, andfirst and second generally straight walls extending upwardly from saidbase surface and intersecting each other, said first and second wallseach intersecting said arcuate wall, said arcuate wall and said firstand second walls being positioned such that the axis of rotation of saidblade is closer to said arcuate wall than to said first and secondwalls.
 2. The container of claim 1 wherein said base surface slopesdownwardly from said arcuate wall toward said first and second walls. 3.The container of claim 1 further comprising a spout formed at theintersection of two of said walls.
 4. The container of claim 3 whereinsaid walls terminate as the upper end of the container, said spoutcommunicating with said walls at a point located approximately twenty tothirty percent of the height of said walls from the upper end of thecontainer.
 5. The container of claim 1 further comprising a skirtextending downwardly from said base surface, and a sound muffler carriedby said skirt.
 6. The container of claim 5 wherein said skirt has anopening therein, said sound muffler including fingers extending fromsaid skirt into said opening and being spaced from each other.
 7. Thecontainer of claim 5 further comprising a spout formed at theintersection of two of said walls.
 8. A container for a blendercomprising a base surface, walls extending upwardly from said basesurface, a rotatable blade carried above said base surface and creatinga sound when blending items in the container, a skirt having a sidewallextending downwardly from said base surface, an opening in said sidewallof said skirt, and fingers extending from said sidewall of said skirtinto said opening and being spaced from each other to baffle the soundcreated by said blade of the blender.
 9. The container of claim 8further comprising a tab extending downwardly into said opening andbeing positioned at least partially over the space between said fingers.10. The container of claim 9 further comprising a slot in said tab. 11.The container of claim 8 wherein said sidewall of said skirt includes aplurality of spaced lobes, said opening being in one of said lobes. 12.The container of claim 8 further comprising a spout formed at theintersection of two of said walls.
 13. The container of claim 12 whereinsaid walls terminate as the upper end of the container, said spoutcommunicating with said walls at a point located approximately twenty tothirty percent of the height of said walls from the upper end of thecontainer.
 14. A container for a blender comprising a base surface,walls extending upwardly from said base surface, a blade rotatable on anaxis and positioned above said base surface, the axis of rotation ofsaid blade being positioned closer to one of said walls than the otherof said walls, a skirt having a sidewall extending downwardly from saidbase surface, an opening in said sidewall of said skirt, and fingersextending from said sidewall of said skirt into said opening and beingspaced from each other to baffle the noise of the blender.
 15. Acontainer for a blender comprising a base surface, a blade rotatable onan axis and positioned above said base surface, an arcuate wallextending upwardly from said base surface, first and second generallystraight walls extending upwardly from said base surface andintersecting each other, said first and second walls each intersectingsaid arcuate wall, said arcuate wall and said first and second wallsterminating as the upper end of the container and being positioned suchthat the axis of rotation of said blade is closer to said arcuate wallthan said first and second walls, a skirt extending downwardly from saidbase surface, an opening in said skirt, fingers extending from saidskirt into said opening and being spaced from each other to baffle thenoise from said blade of the blender, and a spout formed at theintersection between two of said walls, said spout communicating withsaid walls at a point located approximately twenty to thirty percent ofthe height of said walls from the upper end of the container.